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As climate change causes ocean temperatures to rise, coral reefs worldwide are experiencing mass bleaching events and die-offs. For many, this is their first encounter with extreme heat. However for some reefs in the central Pacific, heatwaves caused by El Nino are a way of life. Exactly how these reefs deal with repeated episodes of extreme heat has been unclear. A new study from the Woods Hole Oceanographic Institution (WHOI), has uncovered the history of bleaching on a reef in the epicenter of El Nino, revealing how some corals have been able to return after facing extreme conditions. The study was published October 26, 2018, in the journal Communications Biology.

A new system using next generation robotic sensors to monitor coastal waters for disease-causing microalgae has been funded by the NOAA Sea Grant Program as part of a national strategic investment in aquaculture.

The PhytO-ARM (Phytoplankton Observing for Automated Real-time Management), under development by Woods Hole Oceanographic Institution (WHOI) biologist Mike Brosnahan, will vastly improve our ability to detect harmful algal blooms (HABs) and the toxins they produce and provide aquaculturists, resource managers, and others detailed, real-time information about the bloom using a web-based, user-friendly dashboard.

Scientists have known for years that warming global climate is melting the Greenland Ice Sheet, the second largest ice sheet in the world. A new study from the Woods Hole Oceanographic Institution (WHOI), however, shows that the rate of melting might be temporarily increased or decreased by two existing climate patterns: the North Atlantic Oscillation (NAO), and the Atlantic Multidecadal Oscillation (AMO).

A research team led by Woods Hole Oceanographic Institution (WHOI) found the fingerprint of a massive flood of fresh water in the western Arctic, thought to be the cause of an ancient cold snap that began around 13,000 years ago.

Sea levels in coastal areas can be affected by a number of factors: tides, winds, waves, and even barometric pressure all play a role in the ebb and flow of the ocean. For the first time, however, a new study led by the Woods Hole Oceanographic Institution (WHOI) has shown that river outflow could play a role in sea level change as well.

Scientists published the first hearing tests on a wild population of healthy marine mammals. The tests on beluga whales in Bristol Bay, AK, revealed that the whales have sensitive auditory systems and showed less age-related hearing loss than is expected.

The Ayeyawady River delta in Myanmar is home to millions of people, and is a hub of agricultural activity. Unlike other large rivers across the world, however, the Ayeyawady has been relatively untouched by large infrastructure and dam projects for the past 50 years, and its geologic evolution has never previously been studied.

Miles beneath the ocean surface in the dark abyss, vast communities of subseafloor microbes at deep-sea hot springs are converting chemicals into energy that allows deep-sea life to survive, and even thrive, in a world without sunlight. Until now, however, measuring the productivity of subseafloor microbe communities (or how fast they oxidize chemicals and the amount of carbon they produce) has been nearly impossible.

The Woods Hole Oceanographic Institution (WHOI) recently obtained authorization by Maritime Archaeology Consultants, Switzerland AG (MAC), and the Colombian government to release new details from the successful search for the three-century old San José 62-gun, three-masted Spanish galleon ship that sank with a cargo believed to be worth billions of dollars. The ship, which is often called the ‘holy grail of shipwrecks,’ went down with a treasure of gold, silver, and emeralds in 1708 during a battle with British ships in the War of Spanish Succession.

Deep-diving whales and other marine mammals can get the bends – the same painful and potentially life-threatening decompression sickness that strikes scuba divers who surface too quickly. A new study offers a hypothesis of how marine mammals generally avoid getting the bends and how they can succumb under stressful conditions.

A research team led by Woods Hole Oceanographic Institution (WHOI) found that sunlight chemically alters crude oil floating on the sea surface within hours or days. In a follow-up study the team reported that sunlight changes oil into different compounds that dispersants cannot easily break up. The results of these two studies could affect how responders decide when, where, and how to use dispersants.

Scientists have long known that steep mountain ranges can draw carbon dioxide (CO2) out of the atmosphere as erosion exposes new rock, it also starts a chemical reaction between minerals on hill slopes and CO2 in the air, weathering the rock and using CO2 to produce carbonate minerals like calcite.

What if we explored the ocean’s vast twilight zone, teeming with undiscovered life? Today, the Woods Hole Oceanographic Institution (WHOI) was awarded $35 million – the largest philanthropic gift in the Institution’s history – to do just that. The award comes from The Audacious Project, a bold new philanthropic collaboration housed at TED to fund critical ideas that have potential to create massive, global change.

Atlantic Ocean Circulation at Weakest Point in More Than 1500 years New research led by University College London (UCL) and Woods Hole Oceanographic Institution (WHOI) provides evidence that a key cog in the global ocean circulation system hasn’t been running at peak strength since the mid-1800s and is currently at its weakest point in the past 1,600 years. If the system continues to weaken, it could disrupt weather patterns from the United States and Europe to the African Sahel, and cause more rapid increase in sea level on the U.S. East Coast.

Colonies of breeding king penguins behave much like particles in liquids do, according to new study by the Woods Hole Oceanographic Institution (WHOI) and international colleagues. This “liquid ” organization and structure enables breeding colonies to protect themselves against predators while also keeping members together.

The Woods Hole Oceanographic Institution is dedicated to advancing knowledge of the ocean and its connection with the Earth system through a sustained commitment to excellence in science, engineering, and education, and to the application of this knowledge to problems facing society. LEARN MORE »

Simon Thorrold, Ocean Ecologist

Simon Thorrold is an ocean ecologist at Woods Hole Oceanographic Institution. He uses techniques that span isotope geochemistry, next generation DNA sequencing, and satellite tagging to study the ecology of a wide variety of ocean species. He recently discovered that blue sharks use warm water ocean tunnels, or eddies, to dive to the ocean twilight zone, where they forage in nutrient-rich waters hundreds of meters down. Born in New Zealand, Simon received his B.S. from the University of Auckland, and Ph.D. from James Cook University, North Queensland, Australia. With much of his work in the South Pacific and Caribbean, Simon has been on many cruises, logging 1,000 hours of scuba diving and 800 hours in tropical environs. He has been a scientist at Woods Hole Oceanographic Institution since 2001.

Gregory Skomal, Shark Biologist

Dr. Gregory Skomal is an accomplished marine biologist, underwater explorer, photographer, and author. He has been a fisheries scientist with the Massachusetts Division of Marine Fisheries since 1987 and currently heads up the Massachusetts Shark Research Program. He is also adjunct faculty at the University of Massachusetts School for Marine Science and Technology and an adjunct scientist at the Woods Hole Oceanographic Institution (WHOI). He holds a master’s degree from the University of Rhode Island and a Ph.D. from Boston University. For more than 30 years, Greg has been actively involved in the study of life history, ecology, and physiology of sharks. His shark research has spanned the globe from the frigid waters of the Arctic Circle to coral reefs in the tropical Central Pacific. Much of his current research centers on the use of acoustic telemetry and satellite-based tagging technology to study the ecology and behavior of sharks. Greg has been an avid SCUBA diver and underwater photographer since 1978. He has written dozens of scientific research papers and has appeared in a number of film and television documentaries, including programs for National Geographic, Discovery Channel, BBC, and numerous television networks. His most recent book, The Shark Handbook, is a must buy for all shark enthusiasts. He is a Boston Sea Rover and a member of The Explorers Club; his home and laboratory are on the south coast of Massachusetts.

Robert Ballard, Ocean Explorer

Robert Ballard, Ocean Explorer

Robert D. Ballard is Founder and President of the Ocean Exploration Trust; Director of the Center for Ocean Exploration and Professor of Oceanography at the University of Rhode Island Graduate School of Oceanography. He is an Explorer-At-Large at the National Geographic Society, Commissioner for the U.S. Commission on Ocean Policy, and a Research Scholar at the Woods Hole Oceanographic Institution. He served in the U.S. Navy for more than 30 years and continues to work with the Office of Naval Research. A pioneer in the development of deep-sea submersibles and remotely operated vehicle systems, he has taken part in more than 155 deep-sea expeditions. In 1985, he discovered the RMS Titanic, and has succeeded in tracking down numerous other significant shipwrecks, including the German battleship Bismarck, the lost fleet of Guadalcanal, the U.S. aircraft carrier Yorktown, and John F. Kennedy’s boat, PT-109. He has also discovered hydrothermal vents and “black smokers” in the Galapagos Rift and East Pacific Rise in 1977 and 1979. The author of numerous books, scientific papers, and articles, he has been featured in several National Geographic television programs, including “Secrets of the Titanic” a five-part mini-series, “Alien Deep with Bob Ballard.” and, in 2019, “Expedition Amelia.” He was a special advisor to Steve Spielberg on the futuristic television show seaQuest DSV. His honors include 22 Honorary Doctorates, National Geographic’s highest award, the Hubbard Medal, and a National Endowment for the Humanities Medal. He was elected a Fellow of the American Academy of Arts and Sciences in 2014.

Timothy Shank, Deep-Sea Biologist

Tim Shank, Deep-Sea Biologist

Timothy Shank is a deep-sea biologist, Associate Scientist in the Biology Department, and former Director of the Ocean Exploration Institute at the Woods Hole Oceanographic Institution. He is known for his research on the ecology and evolution of fauna in deep-ocean hydrothermal, seamount, canyon and deep trench systems. He has conducted more than 60 scientific expeditions in the Arctic, Atlantic, Pacific, and Indian Oceans. Tim has completed more than 50 dives in the human operated submersible Alvin, and more than 100 dives with autonomous underwater and remotely-operated vehicles, including the first use of a hybrid ROV (Nereus) in the ocean’s deepest trenches. He is the author of the award-winning, best-selling book “Discovering the Deep.”

Sunita Williams, NASA Astronaut

NASA Astronaut Sunita L. Williams

Sunita L. Williams (Suni) was selected as an astronaut by NASA in 1998 and is a veteran of two space missions Expeditions 14/15 and 32/33. She is currently training for the first post-certification mission of Boeing’s Starliner spacecraft – the second crewed flight for that vehicle – and her third long duration mission aboard the International Space Station. Williams and her crewmates are working closely with Boeing to develop their new spacecraft systems, which will provide roundtrip crew transportation services to the International Space Station and, along with SpaceX’s CrewDragon, return the ability to launch humans into space from United States soil.

Kirstin Meyer-Kaiser, WHOI Biologist

Kirstin Meyer-Kaiser, WHOI Biologist

Kirstin Meyer-Kaiser is an Assistant Scientist in the Biology Department at Woods Hole Oceanographic Institution. Her research explores how the larvae of seafloor invertebrates such as anemones and sea stars disperse to isolated, island-like habitats, how larvae settle and colonize new sites, and how their communities change over time. Kirstin is currently Principal Investigator for an interdisciplinary project on shipwrecks in Stellwagen National Marine Sanctuary, including the steamship Portland, often termed “New England’s Titanic.” This project uses cutting-edge technology to construct 3D photogrammetric models of the Portland and other wrecks for archaeological and biological research and resource management. Kirstin also has ongoing projects in the Arctic and on coral reefs in Palau. Her work frequently takes her underwater using remotely operated vehicles and SCUBA and carries her to the far corners of the world.